Cocaine induced secretion of ACTH, beta-endorphin, and corticosterone

The effect of intraperitoneal administration of cocaine on the concentrations of hypothalamic corticotropin releasing factor like-immunoreactivity (CRF-LI), plasma ACTH, beta-endorphin, and corticosterone was investigated. Groups of rats were injected with 20 mg/kg cocaine HCI or 0.9% NaCl and then killed 0, 10, 20, 30 or 60 minutes later. Hypothalamic CRF-LI, plasma ACTH, beta-endorphin, and corticosterone concentrations were determined by radioimmunoassay. A significant increase in plasma ACTH, beta-endorphin, and corticosterone concentrations was observed after cocaine administration. In contrast, cocaine had no significant effect on hypothalamic CRF-LI concentrations. Intravenous administration of 0.5 and 2.0 mg/kg cocaine to rats in which the endogenous release of CRF was blocked by chlorpromazine, morphine, and pentobarbital elicited a significant increase in plasma corticosterone concentrations. These results demonstrate that cocaine induces the release of ACTH, beta-endorphin, and corticosterone and suggest that this response is mediated at the pituitary level.     

Circadian rhythm of corticotropin releasing factor-like immunoreactivity in rat hypothalamus

Levels of hypothalamic corticotropin releasing factor-like immunoreactivity (CRF-LI) were measured by radioimmunuoassay (RIA) over a 24 hour light-dark cycle and found to exhibit two peaks. One peak was detected at 1100 hr and a secondary smaller peak was found at 2000 hr. The trough between the two peaks was detected at 1700 hr which coincided with the peak in plasma corticosterone levels. The results are consistent with a decreased level of hypothalamic CRF-LI at 1700 hr reflecting an increased release of peptide followed successively by the release of ACTH and corticosterone.     

Vasopressin pressor receptor-mediated activation of HPA axis by acute ethanol stress in rats

The plasma arginine vasopressin (AVP), ACTH, and corticosterone levels and the hypothalamic corticotropin-releasing hormone (CRH) content were measured after oral administration of 1 ml of 75% ethanol to rats, a model known to induce acute gastric erosions and stress. Elevated plasma AVP, ACTH, and corticosterone levels were detected 1 h after ethanol administration. Treatment with the vasopressin pressor (V(1)) receptor antagonist [d(CH(2))(5)Tyr(Me)-AVP] before ethanol administration significantly reduced the ACTH and corticosterone level increases. A higher hypothalamic CRH content was measured at 30 or 60 min after ethanol administration. V(1) receptor antagonist injection, 5 min before ethanol administration, inhibited the rise in hypothalamic CRH content. The protein synthesis blocker cycloheximide prevented the hypothalamic CRH content elevation after stress. The AVP-, CRH-, and AVP + CRH-induced in vitro ACTH release in normal anterior pituitary tissue cultures was also prevented by pretreatment with the V(1) receptor antagonist. The results support the hypothesis that stress-induced AVP may not only act directly on the ACTH producing anterior pituitary cells but also indirectly at the hypothalamic level via the synthesis and release of CRH.     

Function of hypothalamic-pituitary-adrenocortical system in hypertensive rats of ISIAH strain

Functional activity of hypothalamic-pituitary-adrenocortical axis has been studied under control and restraint stress conditions in rats with inherited stress-sensitive arterial hypertension (ISIAH strain) and in normotensive WAG (Wistar Albino Glaxo) strain. The levels of hypothalamic CRH-mRNA (in control and 2 hrs stress), pituitary and plasma ACTH and plasma corticosterone (in control and after 5, 15 or 30 min of restraint stress), were evaluated. Hypothalamic CRH-mRNA level was found to be approximately the same in the control rats of both strains. In control conditions, the pituitary and plasma ACTH content in ISIAH rats was significantly lower whereas the corticosterone level in the plasma differed from each other in both strain. The restraint stress resulted in a statistically significant increase of the CRH-mRNA in ISIAH rats and not in the WAG rats. Moreover, in spite of the lower ACTH level in stressed ISIAH rats, the corticosterone blood plasma concentration in hypetensive rats was significantly higher. The data obtained confirm the idea that the stress-dependent hypertension might be related to an enhanced sensitivity of the main endocrine links involved in the stress response organization.     

Characterization of pituitary–adrenocortical activity in the Malayan flying fox (Pteropus vampyrus)

Pituitary–adrenocortical and gonadal endocrine activity was investigated in a captive colony of Pteropus vampyrus, a highly social Old World fruit bat. Both cortisol and corticosterone were present in plasma, at a ratio of approximately 5:1, respectively. Glucocorticoid but not testosterone levels significantly increased prior to and concomitant with the evening active period. Restraint stress for 15–60 min resulted in a significant and rapid increase in plasma levels of adrenocorticotropic hormone (ACTH) and glucocorticoids. ACTH levels quickly returned to baseline following restraint whereas glucocorticoid levels remained elevated for at least 30 min after restraint ended. Plasma ACTH levels after stress were similar to levels reported after stress in other mammals. Stress-induced glucocorticoid levels were several-fold greater than those reported for most mammals. Restraint for 15 min significantly inhibited testosterone levels. Restraint stress did not affect hormone levels on the morning following restraint. Brief capture, handling, and release of the animals did not elicit increases in these hormones. The physiological responsiveness of the pituitary and adrenal glands, along with P. vampyrus’s documented seasonality and range of social behaviors, makes these bats an excellent model for exploring the general physiology of the hypothalamic–pituitary–adrenal and hypothalamic–pituitary–gonadal axes, as well as social influences on these axes.     

Role of hypothalamic inputs in maintaining pituitary-adrenal responsiveness in repeated restraint

The role of hypothalamic structures in the regulation of chronic stress responses was studied by lesioning the mediobasal hypothalamus or the paraventricular nucleus of hypothalamus (PVH). Rats were acutely (60 min) and/or repeatedly (for 7 days) restrained. In controls, a single restraint elevated the plasma adrenocorticotropin (ACTH), corticosterone, and prolactin levels. Repeated restraint produced all signs of chronic stress, including decreased body and thymus weights, increased adrenal weight, basal corticosterone levels, and proopiomelanocortin (POMC) mRNA expression in the anterior pituitary. Some adaptation to repeated restraint of the ACTH response, but not of other hormonal responses, was seen. Lesioning of the mediobasal hypothalamus abolished the hormonal response and POMC mRNA activation to acute and/or repeated restraint, suggesting that the hypothalamo-pituitary-adrenal axis activation during repeated restraint is centrally driven. PVH lesion inhibited the ACTH and corticosterone rise to the first restraint by approximately 50%. In repeatedly restrained rats with PVH lesion, the ACTH response to the last restraint was reduced almost to basal control levels, and the elevation of POMC mRNA level was prevented. PVH seems to be important for the repeated restraint-induced ACTH and POMC mRNA stimulation, but it appears to partially mediate other restraint-induced hormonal changes.     

Brain corticotropin-releasing factor (CRF) and catecholamine responses in acutely stressed rats

Ether-laparotomy stress produced a rapid increase in rat hypothalamic CRF concentration, followed by a rapid reduction and subsequent increase. Cold-restraint stress significantly reduced hypothalamic CRF concentration at 15 min after stress onset. Serum ACTH and corticosterone levels were significantly elevated at 15 min after the onset of both stresses. The CRF responses in the medulla oblongata were not similar to the hypothalamic CRF responses. Norepinephrine concentration in the hypothalamus was reduced, whereas dopamine concentration in the hypothalamus and medulla oblongata was significantly increased. Epinephrine concentrations in these tissues did not show any significant change throughout the stress period. The observations lead to the following conclusions: hypothalamic CRF plays a major role in stimulating ACTH secretion under acute stress; the reduction in hypothalamic CRF is due to an excess release in the early phase of acute stress; hypothalamic CRF and medulla oblongata CRF are controlled by different mechanisms; norepinephrine in the hypothalamus may not be involved in stimulating hypothalamic CRF secretion in the early phase of acute stress; and catecholamines are regulated differently in the hypothalamus and medulla oblongata.     

Dual effects of (D-Ala2,Met5)-enkephalinamide on CRF and ACTH secretion

An intra-third ventricular administration of (D-Ala2,Met5)-enkephalinamide (DALA) did not elevate plasma ACTH and corticosterone levels in unanesthetized freely moving rats, but intra-third ventricular administration of DALA and methionine (Met)-enkephalin potentiated a mild stress (hanging for 10 or 30 sec)-induced plasma ACTH and corticosterone elevations in unanesthetized freely moving rats. DALA and Met-enkephalin seemed to stimulate CRF release from the median eminence to increase plasma ACTH, as the CRF concentration in the median eminence area was reduced after injection in these stressed rats. When hypothalamic tissues were perifused in vitro, DALA (1-100 ng/ml) reduced the release of CRF. These results suggest that the opiates seem to have a dual effect on the CRF-ACTH system depending on which action overrides the other.     

Strain difference in pituitary-adrenal axis between Wistar-Imamichi and Long Evans adult male rats.

In the present study, we used closed colony-Wistar-Imamichi (WI), inbred WI and Long Evans (LE) adult male rats to examine the secretion of ACTH and corticosterone in response to restraint stress. Blood (0.3 ml) was withdrawn through a jugular cannula at 0, 15, 30, 60 and 120 min after the onset of restraint stress. Plasma concentrations of ACTH and corticosterone increased after stress in all groups, but the responses of ACTH and corticosterone secretion were higher in LE rats than in WI rats. Present data suggest that the LE rat might be a good model as a high-response strain and the closed colony or the inbred WI rat might be a good model as a low-response strain in restraint stress experiments.     

Long-term salt loading impairs pituitary responsiveness to ACTH secretagogues and stress in rats

Male Wistar rats were allowed to drink tap water ad lib (W), 2% saline (S) or 2% saline containing dexamethasone (S + D, 1 mg/l) for 7 days. On the 8th day rats were subjected to a 3-min ether stress. Plasma ACTH, corticosterone and prolactin concentrations were determined before and after ether exposure. Prestress concentrations of plasma ACTH were low and did not vary among the three groups. In response to ether stress W rats exhibited twice as high plasma ACTH concentrations as did S rats. Rats of the S + D group exhibited a small but statistically significant ACTH response. Plasma corticosterone concentration in S rats was increased while in S + D rats was significantly decreased under resting conditions compared to that in W rats. Ether stress caused large increases in plasma corticosterone concentrations in W and S rats while a small but statistically significant increase was observed in S + D rats. Prolactin responses to ether were smaller in groups S and S + D than in group W. To test whether the decreased ACTH response to ether exposure was a result of a decreased sensitivity of corticotrope cells to corticotropin releasing factor (CRF)-41 or arginine vasopressin (AVP), adenohypophysial fragments from W, S and S + D rats were incubated in the presence of different doses of CRF-41 or AVP. Pituitary fragments obtained from W rats secreted larger amounts of ACTH than did pituitaries from S rats in response to either CRF-41 or AVP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of bilateral olfactory bulbectomy on the anterior pituitary corticotropic cell activity in male rats.

Bilateral olfactory bulbectomy (OB) has drastic biochemical and behavioral effects and is often associated with an increase in plasma corticosterone concentrations. This experiment examined the effects of OB on adrenocorticotropin (ACTH) and corticosterone release under basal and stress conditions and on proopiomelanocortin (POMC) gene expression. Bulbectomy potentiated hypophysal ACTH and adrenal corticosterone release induced by ether stress but had no effect on ACTH release under basal conditions, despite a significant increase of circulating corticosterone. POMC gene expression was stronger (+60%) in OB rats than in sham-operated rats. These results suggest that olfactory bulbectomy substantially altered the negative feed-back exerted by glucocorticoids on anterior pituitary corticotropic cells in the male rat.     

Pro-opiomelanocortin peptides in the human fetal pituitary

Levels of immunoreactive pro-opiomelanocortin (POMC) peptides (N- and C-terminal ACTH, N- and C-terminal LPH and α-MSH) have been measured in pituitary extracts from human fetuses of 12–22 weeks gestation. The levels of ACTH were 30–200 times higher than α-MSH in all fetuses studied. Sephadex G-75 and G-25 chromatography of 8 extracts showed peaks of 34 kilodaltons (K) POMC, 22K ACTH, β-LPH, γ-LPH, β-endorphin, approximately 8K ACTH, 1–39 ACTH, α-MSH and CLIP. The 8K and 22K forms of ACTH are both partly glycosylated.In vitro culture of pituitaries from 2 fetuses (22 and 26 weeks gestation) gave a detectable basal output of ACTH but not of α-MSH. Stimulation of these pituitary cells with human fetal and rat hypothalamic extracts and with synthetic ovine CRF-41 produced a significant increase in ACTH release, and either small or undetectable amounts of α-MSH.These results demonstrate the presence of POMC-related peptides in early gestation human fetal pituitaries and suggest that ACTH, and not α-MSH, is the major corticotrophic hormone at this stage of gestation.     

Repeated handling, restraint, or chronic crowding impair the hypothalamic-pituitary-adrenocortical response to acute restraint stress.

The purpose of the present study was to assess whether, and to what extent prior handling, restraint or social crowding stress during 3-10 days affects the hypothalamic-pituitary-adrenocortical (HPA) response to an acute short-lasting restraint stress. Also the effect of a feedback inhibitory mechanism of corticosterone in the impairment of HPA axis by these stressors was investigated. Male Wistar rats were pretreated with handling 1 min/day for 3-10 days, restraint 2 times daily for 3-7 days and crowding stress for 7 days before exposure to acute restraint stress in metal tubes for 10 min. Some group of rats received exogenous s.c. corticosterone either once 25 mg/kg or 2 times daily 10 mg/kg for 3-10 days before restraint stress. After the last restraint the rats were decapitated and their trunk blood was collected for the measurement of plasma ACTH and serum corticosterone levels. Handling for 3-7 days, restraint for 3-7 days, and crowding for 7 days and a single pretreatment with corticosterone--all significantly and to a similar extent inhibited the restraint stress-induced increase in ACTH and corticosterone secretion. Chronic pretreatment with corticosterone blunted the restraint stress-induced increase in HPA axis activity. These results indicate that repeated short-lasting stress induced by handling, restraint, or crowding potently attenuates the acute restraint stress-induced stimulatory action of the HPA axis. They also indicate adaptive action of moderate stress on the HPA axis response to acute stress. The results also suggest that a short-lasting hypersecretion of corticosterone during psychological stress may induce a prolonged feedback inhibition of the HPA axis activity. The attenuation of HPA axis response by prior handling has also obvious methodological implications.     

Hypothalamic CRF-like immunoreactivity in the rat after hypophysectomy or adrenalectomy

Hypothalamic CRF-like immunoreactivity was measured in normal, hypophysectomized or adrenalectomized adult male rats. As expected, adrenalectomy resulted in decreased levels in plasma corticosterone and increased plasma levels of ACTH; hypophysectomy resulted in decreased levels in both corticosterone and ACTH. The hypothalamic content of CRF-like immunoreactivity in animals two weeks post-hypophysectomy or adrenalectomy was approximately seven times greater than that found in intact animals. At one week, post-surgery, small but statistically significant decreases in content of CRF-like immunoreactivity were observed. The results at one week are consistent with removal of feedback effects of ACTH and corticosterone causing increased release of CRF and decreased content. The increase in CRF-like immunoreactivity two weeks post-surgery is probably not related to direct feedback effects on release but may be due to increased synthesis secondary to long term removal of feedback inhibition.     

Attenuation of corticotropin releasing factor-induced hypotension in anesthetized rats with the CRF antagonist, alpha-helical CRF9-41; comparison with effect on ACTH release.

The effect of pretreatment with the corticotropin releasing factor (CRF-41) antagonist, alpha-helical CRF(9-41), on the hypotensive response obtained on peripheral administration of CRF-41 has been assessed in anesthetized Wistar rats. A single IV bolus dose of rat CRF-41 (2 nmol, at 0 min) produced a hypotensive effect which was rapid in onset (-52 mmHg at +1 min) and sustained throughout the 60-min study period (-42, -40, -26 and -16 mmHg at +3, +10, +30 and +60 min, respectively). The antagonist [alpha CRF(9-41)] was administered in consecutive bolus doses of 12.5, 25 and 50 nmol at -15, -10 and -5 min, respectively. This had no effect on mean arterial blood pressure (MABP) or heart rate, nor did it change significantly the magnitude of the initial rapid fall in MABP when CRF-41 was administered (-45 mmHg at +1 min). However, following pretreatment with alpha CRF(9-41), MABP returned to control values within 3 min and the sustained period of hypotension was completely blocked. Administration of CRF-41 resulted in 44% and 142% increases in norepinephrine and epinephrine measured at +60 min. Pretreatment with the antagonist attenuated the rise in circulating catecholamine levels observed after CRF-41 administration. In comparison, pretreatment with the antagonist did not alter the ACTH response to CRF-41 at +1 and +3 min and only reduced ACTH levels by 28% (p less than 0.05), 43% (p less than 0.001) and 41% (p less than 0.01) at 10, 30 and 60 min, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Atrial natriuretic peptide does not affect corticotropin-releasing factor-, arginine vasopressin- and angiotensin II-induced adrenocorticotropic hormone release in vivo or in vitro

The effect of synthetic atrial natriuretic peptide (ANP) was examined on the in vivo and in vitro release of ACTH. Intravenous ANP (4 micrograms/kg body weight) administration did not affect the corticotropin releasing factor (CRF, 4 micrograms/kg body weight)-, arginine vasopressin (AVP, 2 micrograms/kg body weight)- and angiotensin II (A II, 4 micrograms/kg body weight)-induced ACTH release in unanesthetized freely moving rats. ANP did not inhibit the basal, CRF- and AVP-induced release of ACTH in pituitary cell cultures. ANP did not affect the CRF- and AVP-induced plasma corticosterone elevation, while it attenuated the AVP-induced corticosterone elevation. These results indicate that ANP does not affect the ACTH release at the pituitary level in vivo and in vitro.     

“Green odor” inhalation by stressed rat dams reduces behavioral and neuroendocrine signs of prenatal stress in the offspring

Chronic maternal stress during pregnancy results in the “prenatally stressed” offspring displaying behavioral and neuroendocrine alterations that persist into adulthood. We investigated how inhalation of green odor (a mixture of equal amounts of trans-2-hexenal and cis-3-hexenol) by stressed dams might alter certain indices of prenatal stress in their offspring. These indices were depression-like behavior (increased immobility time in the forced-swim test) and acute restraint stress-induced changes in hypothalamo-pituitary-adrenocortical (HPA) axis activity [plasma corticosterone (CORT) and ACTH levels and the number of Fos-immunoreactive cells in the hypothalamic paraventricular nucleus (an index of neuronal activity)]. Pregnant rats were exposed to restraint stress for 60 min/day for 10 days (gestational days 10-19). The prenatally stressed offspring exhibited significant increases in depression-like behavior and in restraint stress-induced ACTH, CORT, and Fos responses, unless their dam had been exposed to green odor. The behavioral effect of the odor was also seen in offspring that were fostered by unstressed dams. The results obtained in the dams themselves were as follows. In vehicle-exposed stressed dams, but not in green odor-exposed ones, total body and adrenal weights were significantly decreased or increased, respectively. Depression-like behavior was not observed in the vehicle-exposed stressed dams themselves. Green odor inhalation prevented the impairment of maternal behavior induced by restraint stress. Thus, exposure of dams to stress may affect both the fetal brain and fetal HPA axis, and also maternal behavior, leading to altered behavioral and neuroendocrine responses in the offspring. Such effects may be prevented by the stressed dams inhaling green odor.     

Influence of nitric oxide synthase inhibitors on the vasopressin-induced pituitary-adrenocortical activity and hypothalamic catecholamine levels.

In the present study the role of endogenous nitric oxide (NO) in the vasopressin-induced ACTH and corticosterone secretion was investigated in conscious rats. Vasopressin (AVP 5 microg/kg i.p.) considerably augmented ACTH and corticosterone secretion. L-arginine (120 and 300 mg/kg i.p.) did not significantly alter the AVP-induced secretion of those hormones. Nitric oxide synthase (NOS) blockers N(omega)-nitro-L-arginine (L-NNA) and its methyl ester (L-NAME) given i.p. 15 min before AVP markedly increased the AVP-induced ACTH secretion. L-NNA (2 mg/kg) more potently and significantly increased the AVP-induced ACTH secretion, whereas L-NAME elicited a weaker and not significant effect. Both those NOS antagonists intensified significantly and to a similar extent the AVP-induced corticosterone secretion. L-arginine (120 mg/kg i.p.) reversed the L-NNA-induced rise in the AVP-stimulated ACTH secretion and substantially diminished the accompanying corticosterone secretion. Neither vasopressin alone nor in combination with L-arginine and L-NAME evoked any significant alterations in the hypothalamic noradrenaline and dopamine levels. L-NNA (2 and 10 mg/kg i.p.) elicited a dose dependent and significant decrease in the hypothalamic noradrenaline level. The hypothalamic dopamine level was not significantly altered by any treatment. These results indicate that in conscious rats endogenous NO has an inhibitory influence on the AVP-induced increase in ACTH and corticosterone secretion. L-NNA is significantly more potent than L-NAME in increasing the AVP-induced ACTH secretion. This may be connected with a considerable increase by L-NNA of hypothalamic noradrenergic system activation which stimulates the pituitary-adrenal axis in addition to specific inhibition of NOS.     

Evidence suggesting that ghrelin O-acyl transferase inhibitor acts at the hypothalamus to inhibit hypothalamo-pituitary-adrenocortical axis function in the rat

Production of n-octanoyl-modified ghrelin (GHREL), an active form of the peptide requires prohormone processing protease and GHREL O-acyltransferase (GOAT), as well as n-octanoic acid. Recently a selective GOAT antagonist (GO-CoA-Tat) was invented and this tool was used to study the possible role of endogenous GHREL in regulating HPA axis function in the rat. Administration of GOAT inhibitor (GOATi) resulted in a notable decrease in plasma ACTH, aldosterone and corticosterone concentrations at min 60 of experiment. Octanoic acid (OA) administration had no effect on levels of studied hormones. Plasma levels of unacylated and acylated GHREL remained unchanged for 60min after either GOATi or OA administration. Under experimental conditions applied, no significant changes were observed in the levels of GOAT mRNA in hypothalamus, pituitary, adrenal and stomach fundus. After GOATi injection hypothalamic CRH mRNA levels were elevated at 30 min and pituitary POMC mRNA levels at 60 min. Both GOATi and OA lowered basal, but not K(+)-stimulated CRH release by hypothalamic explants and had no effect on basal or CRH-stimulated ACTH release by pituitary slices. Neither GOATi nor OA affected corticosterone secretion by freshly isolated or cultured rat adrenocortical cells. Thus, results of our study suggest that in the rat endogenous GHREL exerts tonic stimulating effect on hypothalamic CRH release. This effect could be demonstrated by administering rats with selected inhibitor of ghrelin O-acyltransferase, the enzyme responsible for GHREL acylation, a process which is absolutely required for both GHSR-1a binding and its central endocrine activities.     

Neural control of adrenocortical secretion.

A variety of neural sensory stimuli as well as the stimulation of extrahypothalamic structures can produce an increase in ACTH and corticosterone (CS) secretion. This effect is mediated, at least partially, by corticotropin releasing factor (CRF)-41. Experiments involving stimulation, brain lesions and hypothalamic deafferentations have demonstrated that the mechanisms responsible for this activation are not uniform and the effects of the various modalities are mediated by different pathways. In addition to the anterior hypothalamic input, which plays an important role in the mediation of the adrenocortical responses, the medial forebrain bundle as well as a medial posterior hypothalamic input are also essential for the activation of the hypothalamo-pituitary-adrenocortical axis for some neural modalities. Norepinephrine (NE) seems to have a facilitatory effect on these mechanisms as depletion of hypothalamic NE blocks the rise in serum CS following both peripheral and central neural stimuli. This effect is mediated by alpha 1 and alpha 2 adrenoceptors, the role of beta receptors being unclear. NE palsy also an important role in the early and late changes of CRF-41 content in the median eminence and serum ACTH following adrenalectomy.